CN1058922A - Powder is imported the method and apparatus of container - Google Patents

Abstract

The present invention relates to have the powder of catalytic activity to import the method and apparatus of the reactor 20 that is used for the gaseous state alpha-olefin polymerization.This device comprises a container (3) that fills this powder, the metering valve (4) of a powder intermediate chamber of input (5) that will measure, intermediate chamber (5) comprises the top (5a) with secondary air inlet (2a), and its end has the lower section (5b) of outlet (5c) and the obstacle body (6) that at least one separates top (5a) and lower section (5b).One pipe connecting 18 links to each other outlet (5c) with a mixing device 8.Mixing device (8) is installed on the transfer lime (15) that is connected with reactor (20), and powder is being imported into reactor with the form of thin suspensoid than under the uniform flow rate.

Description

Powder is imported the method and apparatus of container

Theme of the present invention relates to the solid particulate that will have catalytic activation and imports reactor, the particularly method and apparatus of alpha-olefin gaseous polymerizable.

Knownly can make alpha-olefines such as ethene, propylene, 1-butylene having under the situation of catalyst system, the polymerization under gaseous state of 1-hexene and 4-methyl-1-pentene.For example, catalyst system comprises:

A) contain the catalyzer of the compound of transition metal, the particularly titaniferous of IV, V or VI family in the periodic table of elements or vanadium, or contain manganese compound catalyzer and

B) contain the promotor of organometallic compound, the particularly organo-aluminium compound of II in this periodictable and III family metal.This highly active catalyst system mainly is disclosed in French Patent No. 2116698, and No. 2144080, in No. 2529208 and No. 2529209.

Also known to for example above-mentioned high activated catalyst, or with silicon-dioxide be the oxide compound of the chromium of carrier be base-material and heat is arranged to active catalyzer under non-reduced pressure, according to the method for using fluidized bed reactor, can carry out the polyreaction and the copolyreaction of alpha-olefin.

These polyreactions and copolyreaction are carried out in preferably having the vapor reaction device of Z-axis usually.In this reactor, the fluidization air-flow that makes progress that the polymer particle of generation is contained the alpha-olefin that will be aggregated remains on fluidized state.

This vapor reaction device has the porous plate or the orifice plate that are commonly referred to as the fluidization grid usually in its underpart, it can disperse air-flow, enters fluidized-bed, thereby makes polymer particle be in fluidized state above grid.

Above-mentioned vapor reaction utensil has the solid particulate that will catalytic activity be arranged to import the device of fluidized bed, and monomer or comonomer feed system and the system that the polymkeric substance that generates is drawn make the height of fluidized bed remain unchanged simultaneously.This reactor also has a gas circulation pipeline, and this pipeline is drawn from the top of vapor reaction device, and the bottom of getting back to the vapor reaction device then enters below the fluidization grid.This gas circulation pipeline is equipped with a heat exchanger that is used to make compressor that fluidizing gas circulates and at least one to be used to remove the heat that reaction generates usually.

The term that uses in this specification sheets " solid particulate of catalytic activity " comprises the solid particulate of above-mentioned catalyzer or catalyst system, or one or more alpha-olefins are contacted and the solid particulate of the prepolymer that obtains with above-mentioned catalyst system, or according to disclosed method in the French Patent No. 2312511 and No. 2577558, when it is transported to another polymerization reactor (as in the intermediate steps of the rapid tandem reactor of multistep last) from a polymerization reactor, still has other solid particulate of active alpha-olefinic polymer of catalytic polymerization or multipolymer.

In addition, though fluidized-bed reactor often adopts now, problem proposed by the invention and the solution that provides can be used for mechanically stirred reactor and have churned mechanically fluidized-bed reactor.

The catalytic activity solid particulate is imported the problem that gas reactor brought is: correspondingly these particles are transported to the gas reactor that is under the pressure operation condition from storage vessel.Utilize a kind of rare gas element for example nitrogen, hydrogen or other gas of not reacting with said particle, make to fill these particulate storage vessels and remain on than under the high pressure condition of the pressure of vapor reaction device.Storage vessel has one and is used to import particle import and an outlet that is connected with measuring apparatus, and for making the quiet run of vapor reaction device, the effect of measuring apparatus is above-mentioned particle to be held by predetermined amount with continuing be transferred.

For the solid particulate that will measure offers the vapor reaction device, the device that the solid particulate of said metering is transported to reactor from the outlet of said measuring apparatus be arranged.These devices mainly comprise the pipeline that safety, cut-out and needed control valve preferably are housed.In the pipe preferably stream a kind of fluid is arranged, this fluid is generally gas, for example a kind of vector gas, this gas can be transported to solid particulate the vapor reaction device.

Existing will have the system of the solid particulate importing vapor reaction device of catalytic activity in the properties of vector gas difference to be arranged, and it can be a kind of above-mentioned rare gas element, or the gas of a kind of and said particle reaction.Under latter event, for simplicity, the fluid that selection must exist in reactor, in most of the cases, this fluid is gaseous monomer or contains this or these monomeric gaseous mixture.

Many document descriptions import solid particulate the apparatus and method of vapor reaction device.

English Patent is described the method and apparatus of catalyzer being introduced fluidized-bed reactor No. 1333738.

This patent is described a kind of method.To be the catalyzer that measured flow to the chamber that the reaction zone of a said storage vessel and fluidized bed all is communicated with from a storage vessel to this method.This device comprises the catalyzer storage vessel that is communicated with the metering valve with a chamber and be used to supply with the vector gas that can pass through said chamber when the chamber that makes said metering valve is communicated with reactor, thereby the catalyst transport of metering given the device of reactor.

Another device comprises a catalyzer storage vessel, and it is connected with zone catalyzer, between two valves that cut-out was measured, and also is included in the device that supply can be given the vector gas of the Venturi tube that is communicated with reactor catalyst transport.

French Patent relates to for No. 2183298 utilizes kapillary solid catalyst to be imported the method and apparatus of fluidized-bed polymerization reactor.Used internal diameter capillaceous is between 0.76 millimeter and 3.2 millimeters.

French Patent relates to the method and apparatus that adds catalyst fines to fluidized-bed reactor No. 2562077 equally, this device comprises a catalyzer storage vessel, this container is communicated with a measuring apparatus, and this measuring apparatus is communicated with an intermediate chamber of breaking powder packaging into pieces.Article one, the inert carrier gas pipeline enters the top of this intermediate chamber, and draws a pipeline that is used for powder is transported to reactor from the bottom of said intermediate chamber.Said pipeline comprise a vertical part and be right after its back be the part of level basically, this two portions pipeline is continuous with a bend pipe, this causes powder accumulation, thereby powder is transported to reactor in pneumatic piston mobile mode.

United States Patent (USP) relates to the method and apparatus of a catalyst breakage device feed for No. 4018671.This device comprises a feeder, and catalyzer adds feeder from the catalyzer basin periodically by gravity, and feeder and basin sealing separate, and use air pressurized then, so that general's catalyzer wherein enters the vector gas pipeline to destroyer device feed.

Another part French Patent relates to the method and apparatus of heat exchange between solid particulate and gas for No. 1363939.This device is a heat exchanger, and it has one and is divided into by skew wall or the interchanger of several chambers, and it has an exchange column that is divided into several chambers by skew wall.Solid particulate enters at the top of this post, the bottom of falling post by said chamber, and the upwards mobile hot gas counter current contact that enters with the bottom of post in the process that their fall.

The subject matter of aforesaid method is, solid particulate is transported to reactor with intensive state, and they are usually very fine and close, be difficult to spread out in reactor equably soon, thereby the local superheating of causing generates caking and other uneven product.

Anyly among the above-mentioned method and apparatus all can not address this problem.

Having now found that to provide the method and apparatus of the solid particulate that catalytic activity is arranged being supplied with the improvement feed of gaseous state alpha-olefin polymerization device, its improvements are, be transported to the thin in the successive particle air-flow of suspension with coming down to discontinuous particulate material amount, its amount is limited in the minimum extent.

The invention provides an a kind of intermediate chamber and transfer lime of utilizing and supply with the method for the solid particulate that catalytic activity is arranged, it is characterized in that to gaseous state alpha-olefin polymerization device:

(a) make the said particle that is flowing downward enter said intermediate chamber intermittently;

(b) the said particle that is flowing downward is mixed in said chamber with secondary air, so that said particle forms the first suspensoid S in said secondary air ₁

(c) the said first suspensoid S of retardance ₁Some particle at least in said chamber, flow downward so that make said particle in said secondary air, form the second suspensoid S ₂, the said second suspensoid S ₂Particle flow downward more continuously than the particle in the step (a) and

(d) make the said second suspensoid S ₂Flow into transfer lime from said chamber, enter said reactor then.

In more detail, particle drops on the top of chamber usually in step (b), is basically to flow downward and preferably only be subjected to the influence of gravity basically, up to blocked in step (c).In step (b), enter into the direction of secondary air of chamber and the direction of the approach that particle that speed will make these secondary airs not influence top, chamber basically usually flows downward, usually do not make these particles separately, although these particulate cakings dissociate and might take place yet.Usually, in step (c), the said first suspensoid S ₁In some particulate at least flow downward owing to said particle contact and blocked with at least one obstacle body so that to the said particle increase mobile approach that in said chamber, is flowing downward.This obstacle body preferably has a throttling through hole.At least some and whole said first suspensoid S preferably ₁In particle from this orifice flow mistake.By making the said first suspensoid S ₁In some and preferably most of particle at least with contact by the said granular layer of this obstacle impermanency ground retardance, can make said downwards mobile blocked.

This obstacle body is preferably fixed, as a baffle plate, and an inverted butt polyhedron or an inverted truncated cone, for example inverted frustum or funnel.

In a preferred examples, the method comprising the steps of (d), the wherein said second suspensoid S ₂Flow to a mixing device from said chamber, to this unit feeding vector gas, so that make said particle in said secondary air and said vector gas, form thin suspensoid S ₂Suspensoid S ₂Become thin suspensoid S ₃Enter line of pipes, enter said reactor then.Mixing device can be a squirt pump or a Venturi tube.

In another preferred examples, the method comprising the steps of (a), and wherein, by a measuring apparatus, solid particulate enters said chamber discontinuously by the quantity of measuring.This measuring apparatus can be a metering valve, preferably a bucket type valve.Usually, solid particulate enters said chamber with the amount of measuring discontinuously from a storage vessel.Pressure in the storage vessel preferably is higher than the pressure in the above-mentioned chamber.

Specifically, this method can comprise following operation:

Preferably the said particle by the metering of metering valve metering enters intermediate chamber from storage vessel, and the particle of above-mentioned metering is discontinuous passing through.

The solid particulate of said metering mixes with the secondary air on the top that enters into said chamber and by thin, make particle in said secondary air, form the first suspensoid S ₁

Said suspensoid S ₁Basically flow downward by at least one obstacle body by gravity, this obstacle body has at least one throttling through hole, and with the top of intermediate chamber with separate in terminated bottom, an exit, therefore, at least some said particle that flows downward is by said at least one obstacle retardance, and enter into the bottom of intermediate chamber by said at least one throttling through hole, thereby form the second suspensoid S with said secondary air ₂

In said bottom, make some particle in the suspensoid that is suspended in the said secondary air directly flow to the outlet of said intermediate chamber downwards from said at least one throttling through hole, meanwhile, other solid particulate is blocked owing to the wall of the said bottom of running into intermediate chamber in they flow downward, therefore, the dispersion state of solid particulate in said secondary air, to suspend, and with the flow rate that enters intermediate chamber than solid particulate more successive speed leave intermediate chamber, the solid particulate that leaves intermediate chamber preferably enters mixing device, thereby forms thin suspensoid S with secondary air and the vector gas of supplying with mixing device ₃Suspensoid S ₃In the amount of solid particulate do not change in time when in the line of pipes that said mixing device and said reactor are linked together, flowing.

A key character of the present invention is because the feeding of secondary air causes the first suspensoid S of solid particulate ₁The second suspensoid S with the back ₂The second suspensoid S ₂Have than the downward flow velocity of successive, it finally can be diffused into for example at least 30% degree, as 30% to 500%, is 30% to 200% under the particular case, and typical case is 70% to 150%, it directly can be imported the vapor reaction device, or preferably via mixing device.Obtain the second suspensoid S ₂Device mainly comprise and be contained in the intermediate chamber obstacle body and use secondary air.In order in said secondary air, to form the suspensoid S of solid particulate ₁And S ₂, used secondary air volume can be 1 to 1000 centimetre of every gram solid particulate ³, preferably 2 to 500 centimetres ³, be 5 to 200 centimetres in typical case ³

There is the solid particulate of catalytic activity can comprise the catalyzer of at least a transition metal that contains IV in the periodic table of elements, V or VI family.When utilizing mixing device, said vector gas can comprise at least a gaseous state alpha-olefin that will be aggregated, and resembles C ₂-C ₁₀Alpha-olefin, for example ethene, propylene, 1-butylene, 1-hexene, 4-methyl-1-pentene, the 1-octene, it can randomly mix with a kind of diolefine, especially with a kind of non-conjugated diene, and for example same ethylidene norbornene, 4-methyl isophthalic acid, 4-second diene, the 2-methyl isophthalic acid, 5-hexadiene or 1, the 4-hexadiene mixes.

This catalyzer both can be a kind of Ziegler-Natta type (Ziegler-Natta) catalyzer, for example contain the halogenide of titanium and/or vanadium and preferably contain the compound of magnesium, the alkoxide of the halogenide of magnesium or magnesium for example, also can with refractory oxide for example silicon-dioxide be carrier, and to have the active oxide compound with chromium of thermic under non-reduced pressure be the catalyzer of base-material.The volume mean diameter Dm of granules of catalyst is preferably between 70 and 120 microns between 50 to 150 microns, and the distribution of granular size is that Dm is 1 to 4 with the ratio of said particulate number average diameter Dn, is preferably 1 to 3, is 1 to 2.5 in typical case.

There is the solid particulate of catalytic activity can comprise a kind of alpha-olefin prepolymer.When utilizing mixing device, said vector gas comprise at least a can be randomly and a kind of above-mentioned non-conjugated diene blended gas alpha-olefin.What usually, make one or more can be randomly and above-mentioned a kind of non-yoke diene blended C ₂-C ₁₀Alpha-olefin randomly has the II in the periodic table of elements or at least a organometallic compound, especially an organoaluminum of IV family metal with above-mentioned, and a kind of catalyzer contact in the compound of organic zinc or organic-magnesium can obtain this prepolymer.The metal in this prepolymer in the organometallic compound and the mol ratio of the transition metal in the catalyzer are 0.1 to 20, are preferably 0.2 to 10, are 0.5 to 5 in typical case.Every gram prepolymer can contain 2 * 10 ^-3Transition metal to 1 mmole.The density of prepolymer is 0.93 to 0.97, is that 0.1(is heavy 70 ℃ of amounts that are dissolved in the prepolymer in the normal heptane) % to 5(is heavy) %, it is heavy to be preferably 0.2() % to 2(is heavy) %.The volume mean diameter Dm of prepolyer granule can be 80 to 400 microns, is preferably 100 to 300 microns.The distribution of granular size is that said particulate Dm/Dn ratio is 1 to 4, is preferably 1 to 3, is 1 to 2.5 in typical case.Its loose density is 0.2 to 0.45 gram per centimeter ³, be preferably 0.25 to 0.4 gram per centimeter ³

Have the particle of catalytic activity also can be included in another polymerization reactor, previously prepd still has a kind of alpha-olefinic polymer or the multipolymer of catalytic activity.When utilizing mixing device, said vector gas can comprise can be randomly and at least a gas alpha-olefin of a kind of above-mentioned non-conjugated diene blended.Make can be randomly to contact with randomly having above-mentioned at least a organometallic compound with above-mentioned a kind of one or more alpha-olefins of non-conjugated diene blended, can this polymkeric substance of previously prepd or multipolymer.The metal in this polymkeric substance or the multipolymer in the organometallic compound and the mol ratio of the transition metal in the catalyzer are 0.1 to 50, are preferably 0.2 to 20, are 0.5 to 10 under special situation.The density range of this polymkeric substance and multipolymer is 0.85 to 0.97, for example is 0.88 in 0.96.This polymkeric substance of every gram or multipolymer contain 10 ^-5Extremely less than 2 * 10 ^-3Mmole, be preferably 10 ^-4To 10 ^-3The transition metal of mmole.The volume mean diameter Dm of this polymkeric substance or copolymer pellet is 300 to 1500 microns, for example is 400 to 1200 microns.The distribution of granular size is that said particulate Dm/Dn ratio is 1.5 to 4, is preferably 1.5 to 3.5, is 2 to 3 in typical case.Its loose density is 0.25 to 0.55 gram per centimeter ³, be preferably 0.3 to 0.52 gram per centimeter ³, be 0.35 to 0.5 gram per centimeter in typical case ³

When utilizing mixing device, vector gas comprises that at least a alpha-olefin that will be aggregated is useful.Preferably some is a round-robin gaseous mixture in the vapor reaction device to vector gas.This mixture comprises one or more following material of above-mentioned alpha-olefin and (if any): non-conjugated diene; Hydrogen; Rare gas element is as nitrogen; C ₁-C ₆Alkane, as methane, ethane, propane, Aden's alkane, iso-pentane, Skellysolve A or normal hexane, or cycloalkanes are as hexanaphthene or pentamethylene.

The gas that the secondary air that enters intermediate chamber both can be not react with the solid particulate that will enter reactor also can be the gas that can react with said particle.The type of the solid particulate that will enter reactor is depended in the selection of secondary air.If solid particulate by or mainly form by a kind of catalyzer or a kind of polymkeric substance, then recommend to adopt not the gas that reacts with these solid particulates as secondary air.Especially available having as the inertia secondary air: hydrogen or a kind of rare gas element, as nitrogen; Or a kind of C _1-6Alkane, as methane, ethane, propane, normal butane, Skellysolve A, iso-pentane or normal hexane; Or cycloalkanes, as hexanaphthene, pentamethylene; Or other a kind of mixture of these gases.

In some cases, can be using with catalyzer or prepolymer particle: secondary air is cooled to quite low temperature with the secondary air of said particle reaction, for example than low 10 to 100 ℃ of the polymeric reaction temperature in the vapor reaction device, preferably low 10 to 60 ℃, make secondary air and said intergranular reaction or for insignificant, can ignore; Catalyzer or prepolymer be a kind of with the possible reaction of said secondary air in should have the catalyzer of soak time, or a kind of its has initial activity, can reduce the catalyzer of above-mentioned activity level by some passivation measures in advance, as use inhibitor, and for example, CO ₂, CO, SO ₂, H ₂O or O ₂, or a kind of electronic donor compound, for example alcohol, ether, acid amides, amine, aldehyde, ketone, phosphuret-(t)ed hydrogen, sulfone or sulfoxide.

If solid particulate comprises a kind of polymkeric substance or multipolymer with catalytic activity, recommend to adopt the secondary air that can react with said solid particulate.This secondary air especially will comprise at least a alpha-olefin that can be randomly will be aggregated with above-mentioned non-conjugated diene blended, and preferably is made up of the above-mentioned portion gas reaction mixture of round-robin in the vapor reaction device.When utilizing mixing device, available have ejusdem generis secondary air as vector gas.In some cases, before using, be cooled to it than vapor reaction device in low 10 to 100 ℃ of the temperature of polyreaction, preferably low 10 to 60 ℃ is desirable.

When the solid particulate of the suspensoid in the said secondary air when intermediate chamber enters mixing device, they will be connected intermediate chamber by one usually with said mixing device and the optional pipe connecting that a trip valve is housed.In some cases, when said solid particulate is extremely active, when easy especially and vector gas reacts, advise installing a trip valve.Therefore, for fear of from said mixing device to said intermediate chamber even (if any) tangible and too early reaction of generation in the zone of said storage vessel, a trip valve is installed in suggestion, particularly solid particulate by or situation about mainly forming by a kind of catalyzer or a kind of prepolymer, especially should be like this.

In the particular instance of an employing the inventive method, at specific time interval (T ₁) in finish following operation:

(a) will be used for said secondary air is transported to the valve open of said chamber, meanwhile, said particle is being enough to make said particle enter the time (T of said chamber intermittently at least ₄) in enter said chamber, at this moment,

(b) be used in and carry the above-mentioned valve of said secondary air under the position of opening, to keep for some time (T ₅), so that said particle is at time (T ₃) interior from the outflow of said chamber, get the time (T ₃) be equal to or less than (T ₅), then,

(c) be used in the said valve closes for some time (T that carries said secondary air ₂), till next one circulation beginning, make:

T ₂+T ₅＝T ₁

And T ₄Less than T ₅

In a preferred examples, at specific time interval (T ₁) in finish following operation:

(a) be used in the valve open that said secondary air is delivered into said intermediate chamber, meanwhile, said trip valve (if any) is opened, and measuring apparatus is moved the position that the solid particulate of said metering is transported to intermediate chamber from the starting position of the said measuring apparatus of the solid particulate that is equipped with from filling in the storage vessel, then

(b) make said measuring apparatus the solid particulate of said metering is transported to position maintenance for some time (T of intermediate chamber at it ₄), during this period of time, be enough to carry the solid particulate of whole said meterings at least, during this end of processing, the measuring apparatus action resets to starting position, up to next one circulation beginning.

(c) said valve and the trip valve (if any) that is used in feeding secondary air all keeps for some time (T under open mode ₅), so that the total solids that flows downward is at time (T ₃) interior from intermediate chamber outflow, time (T ₃) can be 5 to 120 seconds, be preferably 10 to 100 seconds, and

(d) said valve and the trip valve (if any) that is used in feeding secondary air cuts out for some time (T ₂), up to next one circulation beginning, make T ₂+ T ₅=T ₁, and T ₄Less than T ₅

Said specific time is (T at interval ₁) can be 10 to 200 seconds, be preferably 15 to 150 seconds.

T ₅With T ₁Ratio should be useful near 1 as far as possible, this value can be 0.2 to 0.99, preferably 0.3 to 0.98, be 0.5 to 0.95 in typical case, in particular cases be 0.8 to 0.95, the homogeneity of the suspensoid that enters reactor is increased, the content of solid particulate is constant as far as possible in fill process, avoid simultaneously at transfer lime between the reactor, or in mixing device and pipe connecting (if any), cause filling.

Pressure (P16) from secondary air to intermediate chamber that supply with is useful for following value, promptly when said valve open, the pressure of said supply secondary air (P16) is 1 to 2.5 with the ratio of maintenance (P10) in the downstream of the transfer lime of said mixing device (if any), being preferably 1.01 to 2, in particular cases is 1.01 to 1.5.Usually the pressure (P10) that is kept in transfer lime is substantially equal to the pressure that kept in the vapor reaction device.

The present invention also provides a kind of device that is used for supplying with to gaseous state alpha-olefin polymerization device the solid particulate that catalytic activity is arranged, this device comprises an intermediate chamber with top (5a) and lower section (5b), a line of pipes (15) is characterized in that intermediate chamber comprises:

First inlet (5e) on said top (5a), said particle in use flows into first inlet (5e) intermittently downwards,

Second inlet (2a) on said top (5a); secondary air enters said intermediate chamber by second inlet (2a); mix with the said solid particulate that is flowing downward, so that said particle forms the first suspensoid S1 in said secondary air

A means of retardation (6) that partly top (5a) and lower section (5b) is separated, it blocks the said first suspensoid S ₁Some particle at least flow downward, thereby make said particle in said secondary air, form the second suspensoid S ₂, the situation that flows downward in the top that coexists (5a) is compared, the said second suspensoid S in lower section (5b) ₂Particle flow downward more continuously and,

One at said lower section (5b) upper outlet (5c), the said second suspensoid S ₂Flow into the said line of pipes (15) that is connected on the said reactor (20) by outlet (5c) from said chamber (5), flow into said reactor (20) then.

Means of retardation (6) can comprise at least one first obstacle body, so that increase the mobile approach for the said particle that is flowing downward in said chamber.Preferably at least the first obstacle body (6) can comprise at least one throttling through hole (6a), the said first suspensoid S ₁Some particle at least pass through from throttling through hole (6a).In a preferred examples, the area of the cross section of the said through hole of first throttle at least is littler than the area of cross section of said first inlet (5e) of said chamber, and less than the area of the cross section of (5c) of explaining of said chamber.In another example, at least the first obstacle body can comprise and makes the said first suspensoid S ₁The device that contacts with the said granular layer of said at least the first obstacle body impermanency ground retardance of some particle at least.

Feedway also comprises a mixing device (8), supply with vector gas to it, it is connected to the outlet of said chamber (5c) on the said line of pipes (15) via a connection line (18), so that with the said second suspensoid S that leaves said chamber (5) by said outlet (5c) via said connection line (18) ₂In said secondary air and said vector gas, form the thin suspensoid S of said particulate ₃, suspensoid S ₃Enter said line of pipes (15) from said mixing device (8), enter said reactor (20) then.

In a special example, feedway can comprise:

One is equipped with said particulate storage vessel (3),

A measuring apparatus (4) that is positioned at said storage vessel below, the said particle transport that it will measure is to first inlet (5e) on the top (5a) of the intermediate chamber of the below that is positioned at said measuring apparatus.Said intermediate chamber comprises at least one first obstacle body (6), the first obstacle body (6) comprises at least one throttling through hole (6a), and the first obstacle body (6) partly will comprise said first inlet (5e) and have in the said top (5a) of the intermediate chamber of feeding secondary air second inlet (2a) and end and outlet (5c) to separate with top (5b) pipe connecting (18).

Connection line (18) is connected to said outlet (5c) on the mixing device (8) that is contained on the line of pipes (15), and a trip valve (7) can randomly be installed on connection line (18).Line of pipes has vector gas in (15), and is connected with said reactor.

In intermediate chamber, obstacle body (6) makes from said measuring apparatus and some particle break-in at least that flow downward by gravity basically, stop these particles to flow downward, but in fact do not make them form nonvolatil accumulation, make them pass through said throttle orifice (6a), therefore, the said particle of carrying intermittently by said measuring apparatus with the dispersive form that in said secondary air, becomes suspensoid and relatively the successive flow rate arrive the said outlet (5c) and the mixing device (8) (if any) of chamber.Like this, in line of pipes (15), flow and the flow that then flows into the solid particulate in the suspensoid of said reactor changes littler in time.

In device of the present invention, its structure of said intermediate chamber is a cylinder with vertical axis preferably, plate sealing for example available horizontal or taper or hemispheric in the top,, the centre portions or the top that are preferably in plate are provided with inlet (5e), in its lower end be generally taper or hemispheric underseal close, the bottom most position the end of at is provided with said outlet (5c).

Said first inlet (5e) and said outlet (5c) can be positioned on the longitudinal axis of said intermediate chamber, in other words on the vertical axis of cylinder.

The preferably downward-sloping planomural plate of said obstacle body (6) that the said top (5a) of intermediate chamber and said lower section (5b) are separated.Wallboard that tilts and vertical axis form an angle A, and the value of angle A depends on that the character of solid particulate especially depends on the flowability of solid particulate, and its feature can be the angle that relative vertical direction becomes.The angle A of the wallboard that tilts can be 5 to 40 °, is 10 to 35 ° in typical case.The wallboard that tilts can become baffle plate, be inverted the truncated cone polyhedron, as the part on the surface of inverted truncated pyramid, or is preferably the part on the surface of inverted truncated cone; The small end of inverted truncated cone constitutes said throttling through hole in the bottom, and the cross section on the top of its big end and said intermediate chamber matches.The drift angle of truncated cone polyhedron or circular cone can be 10 to 57 °, preferred 20 to 55 °, is preferably 30 to 50 °.

The center of throttling through hole had better not be positioned at said first inlet (5e) of intermediate chamber and export on the center line wire of (5c).Specifically, when the same vertical axis of being centered close to of above-mentioned entrance and exit, this axis normally during the axis of the cylinder of intermediate chamber, preferably makes this vertical line of axis runout of said throttling through hole.Like this, the said barrier body that hinders just can be used as a baffle plate, play to make basically and obtain changing by the flow downward usual channel of some solid particulate at least of for example falling of gravity, do the as a whole outlet (5c) that directly flows to intermediate chamber from first inlet (5e) with the particle that prevents the back, some said particulate flows downward with regard to correspondingly having blocked at least for this.

The throttling through hole preferably departs from by said first inlet (5e) of said intermediate chamber and the vertical axis of outlet (5c).Be commonly used to constitute the polyhedron that cuts of said obstacle body, for example cut the shuttle awl, truncated cone preferably, usually also be located asymmetrically in said indoor: cut polyhedral central axis or preferably the central axis of truncated cone keep tilting with the vertical axis of said intermediate chamber usually, formed angle is 1 to 30 °, and preferred 1 to 15 ° is preferably 2 to 14 °.

In device of the present invention, said obstacle body preferably is made of the wall that a tack circular cone surrounds, the axis of tack circular cone tilts slightly with respect to the axis of said intermediate chamber, the wall on its top forms a big circumferential edge (6b), and this circumferential edge is fixed on the inwall of said intermediate chamber, its lower section has formed a little circumferential edge (6a), and this circumferential edge has just constituted the said throttling through hole of said obstacle body.Throttling through hole (6a) is a circular hole preferably.

The area of the cross section of throttling through hole (6a) cans be compared to most said first inlet (5e) of intermediate chamber and exports the area of each cross section in (5c) all little.For example, the diameter of throttling through hole (6a) is 5 to 500 millimeters, preferred 8 to 200 millimeters, be preferably 10 to 50 millimeters, and it depends on what of solid particulate aequum of the suspensoid that enters reactor.

Said intermediate chamber preferably includes at least one and is easy to the active part, and at least one obstacle body is installed on this part, like this, just can change the shape of said obstacle body easily, makes it be suitable for said particle and flows downward.

In a special example of device of the present invention, said measuring apparatus (4) is a metering valve, bucket type valve preferably, and mixing device (8) is a squirt pump or a Venturi tube.Specifically, this metering valve can comprise that at least one volume is V ₁The chamber, the solid particulate of crossing with conveying and metering.Select the volume V of intermediate chamber ₂Consider to measure the volume of valve chamber, so that make ratio V ₂/ V ₁Be 3 to 100, be preferably 5 to 50.

Feedway can comprise the device that at least one pressure that is used to control existence between the top of said intermediate chamber (5a) and lower section (5b) falls in addition, the parts of this device all are housed in each side of means of retardation (6), for example obstacle body, therefore, owing to supply with the result of secondary air to top (5a), just in case said means of retardation (6) is by the accidental obstruction of said particle, said pressure falls can increase an absolute value, and this is with the warning device of the said obstruction of alerts triggered.

In some cases, between first inlet (5e) of said first obstacle body (6) and said intermediate chamber, at least one is installed and has the second obstacle body (60) of at least one throttling through hole (60a).The area of the cross section of the said throttling through hole (60a) of the said second obstacle body (60) is preferably less than the area of the cross section of the said throttling through hole (6a) of the said first obstacle body (6).It is preferably also less than said first inlet (5e) of said intermediate chamber with export the area of each cross section of (5c).

This device that comprises at least two obstacle bodies makes that suspensoid is had the content of constant as far as possible solid particulate and uniform more form with it to flow to reactor and become possibility, and avoids latch up phenomenon.

The axis of the bottom centre by the said second obstacle body (60) is 1 to 30 ° with respect to the angle of inclination of the longitudinal axis of said intermediate chamber, is preferably 1 to 15 °, for example 2 to 14 °.The angle of inclination of the axis of the angle of inclination of said axis and the first obstacle body (6) can be identical or different, and the vergence direction of their axis can be identical, or preferably opposite.

In addition, device of the present invention preferably includes the device that under near the situation of the distance of the said throttling through hole of at least one obstacle body conveying belt is pressed secondary air, like this, just in case when taking place to stop up in the throttling through hole of said obstacle body, the particle that forms said obstruction presses secondary air to be eliminated by suddenly sending into said band, and it has blown away the said particle that forms said obstruction.Carry the pipeline of this secondary air with pressure preferably flatly to enter intermediate chamber downward or upward, its pipe end is in the near-earth side very, below of the said throttling through hole of said obstacle body just.

The internal diameter of the line of pipes (15) that is communicated with the vapor reaction device is 10 to 50 millimeters, is preferably 12 to 25 millimeters.

Method of the present invention and for the advantage of the device of realizing this method be:

(a), in the controllable mode of successive as far as possible solid particulate is transported to the vapor reaction device, with the stability of guaranteeing to react;

(b) with not by densification but dispersed, watered down and be suspended in form conveying solid substance particle in the gas, therefore, solid particulate can directly be evenly dispersed in the vapor reaction device, and in the vapor reaction device, the particulate local superheating can be reduced;

(c) avoid solid particulate in feedway, to pile up;

(d) avoid active gas and solid particulate to react and the feedway that produces forms and stops up;

(e) avoid stopping up the part cause active gas to enter being positioned at the feedway between storage vessel and the line of pipes (if any), make this part contaminated;

(f) reduce the amount of the rare gas element enter reactor as much as possible, rare gas element can reduce polyreaction efficient;

(g) reduce solid particulate breaking or fragmentation in entering vapor reaction device process;

(h) reliable;

Method and apparatus of the present invention is very reliable, because compare with existing system, and other element that it need not have noticeable wear to consume.

A significant advantage of the present invention is, in its feasible interval at the appointed time, by means of measuring apparatus, the solid particulate that is originally intermittently the metering of carrying sneaked into these solid particulates are presented in the gas of activity more equably becomes possibility, it makes becomes possibility to compare the successive form to vapor reaction device feed, and this makes guarantees that the stable operation of vapor reaction device becomes possibility.

And in the downstream of measuring apparatus, the present invention can provide a device of being made up of highway section one by one, it can cause one to be the successive particle flow basically, and do not have a dead angle that can stop particle continuously and make particle packing, thereby, the danger that does not have particle plugging and produce caking.Just the opposite, method and apparatus of the present invention can impel even can cause the sort of is not that the caking that exists in the solid particulate that is transferred continuously scatters in the chamber, and this will carry out thin by means of secondary air to particle especially and disperse and clash into to finish.And, the invention enables and reduce that particulate breaks and fragmentation becomes possibility.

Last point is, and is particularly of the present invention, and it makes the intake pressure of secondary air remain on a low value becomes possibility, particularly when secondary air be under the situation of rare gas element, therefore reduced the flow of the gas that enters the vapor reaction device.

Obtain proof in the description with reference to the accompanying drawings below of all these advantages.Device of the present invention shown in the drawings and adopt each example of the method for these devices, but the content that the present invention comprised is not limited in the accompanying drawings.

Fig. 1 represents an example of device of the present invention.

Table 2A, 2B and 2C are the histograms of explaining the main operation of method of the present invention.

Fig. 3 is the sketch of another example of device of the present invention.

Fig. 4 is the longitudinal diagram of the intermediate chamber of device of the present invention.

Component shared among the figure are represented with identical label.

Fig. 1 has represented the synoptic diagram of each parts of apparatus of the present invention.

This device comprises a bunkerage (3) that is used to store particle (13), and particle (13) mixes with the vector gas (9) that passes through in pipeline (15) (part of drawing) in the mode that pulsation is arranged slightly, and is discharged into vapor reaction device (20).

Said particle (13) arrives said storage vessel (3) through feeding line (1), and a trip valve (11) is housed on this pipeline (1) usually.Said particle is transported to storage vessel, for example, availablely these particles are presented inert gasses carries, and this conveying is carried out under band press strip spare.

Said storage vessel (3) has the top cylinder body portion and the part of going to the bottom usually, and said feeding line (1) is connected on the top cylinder part.

Said top cylinder body portion extends to a bottom that is essentially truncated cone shape, and this conical lower portion constitutes a kind of funnel, and there is a said particle outlet its lower end, and a joint flange is equipped with in this outlet usually.Said outlet directly is communicated with the import of metering valve (4).The particle that metering valve (4) can conveying and metering be crossed, for example this valve can be a bucket type valve with the chamber that volume is V1 (14) by described in No. the 2587081st, above-mentioned French Patent.

The outlet of said measuring apparatus directly is communicated with first outlet (5e) of intermediate chamber (5).

Is transfer pressure the top (5a) that pipeline (2) (P16), that be used for thin particulate secondary compressed gas is connected to said intermediate chamber (5), on the said pipeline (2) a secondary air transfer valve (12) can be housed.

Said intermediate chamber (5) comprises that one is essentially columnar top (5a) and one and is essentially columnar lower section (5b), with at least one obstacle body (6) these two portions is separated.The shape of obstacle body can be identical with the top of half avette timing register, or be that sand is bell, or be doline, and have a throttling through hole (6a).The lower end of said lower section (5b) has the end of a truncated cone shape, and this tapered bottom is surrounded by the wall (5d) of said chamber, and has an outlet (5c).Said lower section (5b) constitutes the part of pipe connecting (18).

Said pipe connecting (18) comprises a cutting-off valve (7) if suitable.Its preferably a kind of perforation type valve, directly open facing to mixing device (8), for example, the independent device that it can be contained in the said pipeline (15) is formed, pipeline 15 is a Venturi or a squirt pump preferably, for example as disclosed in French Patent the 2618786th.

In use, said measuring apparatus (4) is transported to the solid particulate of said metering (13) first inlet (5e) on the top (5a) of chamber (5), and mix with the said secondary air of carrying by said pipeline (2) (16), form the first suspensoid S ₁Because the intake pressure (P16) of said secondary air (16) is greater than the working pressure in the said pipeline (15), the said first suspensoid S ₁In the process that its said throttle orifice (6a) by said obstacle body (6) flows downward towards the lower section (5b) of chamber, can be promoted slightly, and some particle will be subjected to the retardance of the wall (5d) of chamber in the process that they flow downward, and therefore forms the second suspensoid S ₂, at this moment they leave chamber (5) by gravity by exporting (5c) basically, by connection line (18) with correspondingly be contained in said valve (7) in the pipeline (18), arrive the mixing zone (17) of said mixing device (8), the second suspensoid S ₂Form thin suspensoid S with said vector gas (9) here ₃, suspensoid S ₃Under the state of pressure (P10), enter reactor (20) (part of drawing), to carry out the gas phase polymerisations of alkene by the direction shown in the arrow (10).

In Fig. 2 A, 2B and 2C, horizontally represent the time as parameter, the unit value of the X-coordinate of Fig. 2 A and 2B equates, and with not the waiting of Fig. 2 c.

Fig. 2 A represents the operation histogram of said secondary air transfer valve (12) and trip valve (7) (if any) and measuring apparatus (4).Represent valve (12) and valve (7) (if any) and dot opening (0) and closing the program of (F) of measuring apparatus (4) with solid line.The program of opening (0) expression of metering valve (4) will be measured first inlet (5e) that solid particulate is transported to intermediate chamber at this open position metering valve.

When the ordinate zou of Fig. 2 B represents that the said particulate metering valve of can conveying and metering crossing (4) is opened shown in Fig. 2 A, flow through in the unit time particulate amount of pipe connecting (18) of the consequent.

Can see from Fig. 2 A and 2B, at specific time interval (T ₁) in finish following operation:

(a) said secondary air transfer valve (12) is opened, meanwhile said trip valve (7) (if any) is opened, and said metering valve (4) action, from original position that the chamber of metering valve (14) are filled up with the particle that fills the said storage vessel to metering valve the position of the particle transport of said metering to said intermediate chamber (5).At this moment,

(b) said metering valve (4) keeps for some time (T in this back position ₄), at time (T ₄) when finishing, said metering valve resets to original position, until next one circulation beginning.

(c) said secondary air intake valve (12) and trip valve (7) (if any) keep for some time (T at open position ₅), the whole particles of the particulate that makes self-measuring to be crossed are at time (T ₃) in flow downward, leave said intermediate chamber (5), arrive mixing device (8), and enter line of pipes (15), then

(d) said secondary air intake valve (12) and trip valve (7) (if any) are closed for some time (T ₂), begin until a next circulation, make T ₂+ T ₅=T ₁, and T ₄Less than T ₅

Said time (the T that opens ₅) can be slightly more than time (T ₃), whole particles of said like this metering can closed said secondary air intake valve (12) and trip valve (7) (if any), and flow out from intermediate chamber by outlet (5c) before next one circulation beginning.This is opened the time (Ts) and can be (1.01～4) T ₃, for example be (1.01～2) T ₃, be preferably 1.05 * (T ₃) to 1.5 * (T ₃).For example, this opens the time (T ₅) can be more than time (T ₃) 1 to 40 or 1 to 30 second, preferably more than 1 to 10 second, for example 1 to 5 second.And, turn-off time (T ₂) preferably as far as possible short, so that it is constant substantially to enter the particle flow speed of vapor reaction device.Specifically, time (T ₅) with respect to time (T ₁) flow rate be 0.2 to 0.99, be preferably 0.3 to 0.98, be 0.5 to 0.95 under particular case, preferred 0.8 to 0.95.

Fig. 2 c mode identical with Fig. 2 B is shown in unit time in continuous three cycling programs by the schedule of proportion that dwindles and flows through the said particulate amount of said pipe connecting (18).

We can see from these figure, by means of the help of the said obstacle body that is provided with, as the said first suspensoid S ₁During by said obstacle body, is that all solid particulates have all been blocked by said obstacle body via at least one throttling through hole basically.And, when making suspensoid S ₁In some particle from said throttling through hole (5c) when flowing directly to said intermediate chamber, meanwhile, remaining particle is blocked by the wall of said intermediate chamber (5d), therefore, the said particle from said measuring apparatus arrives said mixing device (8) and line of pipes (15) (if any) successively in the time (T3).These particles are disperseed, are become the form of dispersive suspensoid in secondary air in the time (T3); And so that flow rate and said vector gas and said secondary air are mixed into the invariant in time thin and uniform suspensoid S of a kind of its granule content uniformly ₃

Fig. 3 has represented a device of the present invention.Represent with identical label in Fig. 3 at the part described in Fig. 1.

In this embodiment, said measuring apparatus (4) drives with actuating mechanism (4a), and said valve (7) drives with actuating mechanism (7a).Said actuating mechanism for example can be reciprocating or rotate, and is electronic or pneumatic motor.

Device of the present invention can comprise that one is used to control the top (5a) of intermediate chamber and the equipment (21) that the pressure between lower section (5b) falls, its component are installed in the both sides of at least one obstacle body (6), like this, because secondary air enters said top (5a), just in case said obstacle body (6) is by the accidental obstruction of said particle (13), said pressure falls can increase a significant value, and this will trigger the guard signal of an alarm operation fault.

Therefore, can with the pressure pipe (21a) of said operating device (21) and (21b) or other equivalent pressure device be connected respectively on the top (5a) and lower section (5b) of intermediate chamber (5).

Preferably the pressure pipe (21c) with said operating device (21) is connected on the said transfer lime (15), and said like this operating device (21) just can be controlled the superpressure between said top (5a) and line of pipes (15).Pressure in the said top (5a) is substantially equal to the intake pressure (P16) of said secondary air, and the pressure in the transfer lime (15) is substantially equal to the feed pressure of vapor reaction device (20) (part of drawing).

One trip valve (25) is installed for the line of pipes (15) that is communicated with said vapor reaction device (20), is used to close this passage.

Install one can for the pipeline (2) that is used to carry said secondary air (16) and hold an air-capacitor device (22) and a pressure-regulator (23).Hold the storage vessel of air-capacitor device (22) as said secondary air.Pressure-regulator (23) can be regulated from the said said secondary air that holds air-capacitor device (22) and carry out atmospheric pressure (P16) and can regulate said secondary air (16) to said conveying of holding air-capacitor device (22) by variable valve (24).

Longitudinal diagram Fig. 4 represents an intermediate chamber of apparatus of the present invention.Said intermediate chamber (5) comprises two portions (5f) and (5g), connects by means of the flange that they had, and can easily these two portions be taken apart.

One first obstacle body (6) is installed on the said part (5f), therefore, when using another part similar with it but that the obstacle body of some different characteristicss is housed to replace said part (5f), these features of said obstacle body and the device with these features that obtains thus are easy to be fit to said particulate flow characteristics.

Part (5f) with said first inlet (5e) comprises the coupling device (5h) that links to each other with the pipeline that is used to carry said secondary air (16) (2).

Said obstacle body (6) is made up of general asymmetric frustoconical pipe, is rigidly fixed on the said intermediate chamber (5) by the top round edge (6b) by it with the form that comes down to seal, and for example, adopts the method for welding.The diameter of its top round edge (6b) equates substantially with the diameter of said intermediate chamber.Said obstacle body (6) comprises a following round edge (6a), and it has constituted said throttling channel.

Partly (5g) comprises one second obstacle body (60).The second obstacle body (60) is between the said outlet (5c) of said first obstacle body (6) and said intermediate chamber (5), it has at least one throttling through hole (60a), and will make the area of cross section of said throttling through hole (60a) of the said second obstacle body (60) littler than the cross-sectional area of the said throttling through hole of the said first obstacle body (6).The longitudinal axis of obstacle body (6) and (60) is at the vertical axis Y-Y of said intermediate chamber ₁Two opposite sides is tilted in relation to each other.And throttling through hole (6a) and (60a) also at said vertical axis Y-Y ₁Two opposite sides.

Part (5g) with said outlet (5c) also is included in the device (26) that conveying belt is pressed secondary air (27) that is used for that the said throttling through hole (60a) of the most contiguous said second obstacle body (60) locates to be provided with, like this, just in case (60a) is blocked for throttling channel, by suddenly feeding said compressed gas, these gases have broken up the particle that forms said obstruction, and the particle that forms said obstruction just is eliminated.

Example 1

Utilize device shown in Figure 3, wherein adopt intermediate chamber shown in Figure 4 (5), the powder of ethylene prepolymer is sent into fluidized-bed reactor, make hexene and 1-butylene carry out copolyreaction.Prepolymer powder obtains by following method: what make that hexene and method according to the example 1 of French Patent 2405961 prepare is that Ziegler one Natta catalyst and the trioctylaluminum (tri-n-octylaluminium) of base contacts with magnesium, chromium and titanium.The mol ratio of prepolymer aluminium and titanium is 0.1, and density is 0.96, and every gram prepolymer contains 2.5 * 10 ^-2The mmole titanium, in the time of 70 ℃, the amount that is dissolved in the prepolymer in the normal heptane is that 0.2(is heavy) %.The particulate diameter Dm of prepolymer powder is 220 microns, and Dm/Dn ratio is 2.9, and its loose density is 0.3 gram per centimeter ³

It is 3 meters fluidized-bed reactor that prepolymer powder is sent into diameter, above reactor, the gas velocity of gaseous mixture is 50 cels, and the composition that mixed airflow contains is ethene, 1-butylene, hydrogen and nitrogen, their dividing potential drop (PP) is as follows in the time of 85 ℃:

The dividing potential drop PP=0.64MPa of ethene

The dividing potential drop PP=0.10MPa of 1-butylene

The dividing potential drop PP=0.26MPa of hydrogen

The dividing potential drop PP=0.90MPa of nitrogen

Under nitrogen pressure is the condition of 1.95MPa, prepolymer is stored in the storage vessel (3), prepolymer is intermittently by bucket type metering valve (4), the metering valve shown in Figure 1 that No. the 2587081st, this metering valve and French Patent is identical, and having volume is a chamber (14) of 2.5 liters.

The moving circle of revolution, bucket type valve (4) will measure first inlet (5e) of the prepolymer powder 750 gram input intermediate chambers (5) on ground.

The diameter of first inlet (5e) is 154 millimeters.Intermediate chamber (5) is identical with intermediate chamber shown in Figure 4.It is that 154 millimeters, high 800 a millimeters vertical cylinder body constitute by a diameter, one of its lower section termination high 200 millimeters and have a diameter to be 19 millimeters the frustum of a cone of outlet (5c) at the bottom of.The first obstacle body is a bevel cone, and the angle of the vertical axis of its axial line and cylinder is 3 °, and at 250 millimeters places, top of distance cylinder, the big limit circumference (6a) by it is fixedly mounted on it on the inwall of cylinder.200 millimeters of bevel circular cone heights, the diameter of its throttling through hole (6a) is 16 millimeters.The wall of a bevel cone and the angle of vertical axis are 15.5 ° to 21.5 °.The drift angle of a bevel circular cone is 37 °.At 625 millimeters places, top of distance cylinder, the great circle periphery of the second obstacle body (60) by it is fixedly mounted on the inwall of cylinder.The second obstacle body is a bevel cone, and the axial line angle of its axial line and cylinder is 3 °, but the direction of its axial line is opposite with respect to the direction of cylinder with the axial line of the first obstacle body.The height of a bevel cone is 200 millimeters, 12 millimeters of its throttling through-hole diameters.The wall of a bevel cone and the angle of vertical axis are 16.5 to 22.5 °.The drift angle of a bevel cone is 39 °.Top and the vertical internal diameter of wall cylinder that a feeding intermediate chamber is arranged at 125 millimeters places, top of distance cylinder is 25 millimeters a pipe (5h).Pipe (5h) is connected with pipe (2), so that supply has the secondary air of being made up of nitrogen of 1.95MPa pressure, valve (12) is housed on pipeline (2).Internal diameter is that 19 millimeters pipe connecting (18) is connected to outlet (5c) on the squirt pump (8).

Pipe connecting (18) is equipped with trip valve (7).Supply with the vector gas of forming by round-robin part gaseous reaction mixture in fluidized-bed reactor and gas circulation line (9) to squirt pump (8).The gas circulation pipeline is connected the top of fluidized-bed with its bottom, and a compressor and a heat exchange system are housed.Vector gas (9) is from the gas circulation pipeline in the downstream of compressor and heat exchange system, and its pressure is about 1.9 millibars, and temperature is 45 ℃.

Internal diameter is that 25 millimeters line of pipes (15) links to each other squirt pump (8) with fluidized-bed reactor.

Time (T at 27 seconds ₁) in finish following operation:

(a) nitrogen transfer valve (12) is opened, meanwhile, trip valve (7) is opened, bucket type valve (4) is moved from the original position of chamber (14) being filled up prepolymer powder 750 gram prepolymer powders are transported to the position of intermediate chamber (5), at this moment,

(b) make bucket type valve (4) position that prepolymer powder is transported to intermediate chamber (5) be kept 10 times in second (T4), the time (T at 10 seconds at it ₄) when finishing, bucket type valve (4) action resets to its initial position, up to next one circulation beginning.

(c) make nitrogen transfer valve (12) and trip valve (7) keep the time (T in 25 seconds at open position ₅), so that make all come particle that self-measuring crosses 20 seconds flow in the time T 3 squirt pump (8) and

(d) nitrogen transfer valve (12) and trip valve (7) are closed time (T2) in 2 seconds, up to next one circulation beginning.

Open the time in (T5) at valve, the flow of importing the nitrogen of intermediate chamber (5) via pipeline (2) is 1.3 meters ³/ hour.During step C, formed volatile granular layer by the prepolymer powder of obstacle body (6) and (60) retardance, they flow through throttling through hole (6a) and (60a) lentamente.Thisly existed situation to have the top (5a) of pressure fairlead (21a) and equipment (21b) (21) mensuration intermediate chamber and the pressure between lower section (5b) to fall and show by utilization by the granular layer of obstacle body impermanency ground retardance.

The flow velocity of vector gas (9) input squirt pump is 35 meters ³/ hour, it is made up of the gas reaction mixture that is cooled to 45 ℃.

After realizing these conditions, prepolymer powder is to form thin suspensoid S in gaseous reaction mixture and nitrogen ₃Form, be imported in the fluidized-bed reactor (20) by about 100 kilograms/hour flow.

The final copolyreaction of finding ethene and 1-butylene does not form real caking with gratifying, uniform especially.

Example 2

Make gasiform ethene and 1-butylene in fluidized-bed reactor with according to the method preparation of the example 1 of No. the 2405961st, French Patent, be that the Ziegler-natta catalyst tri-n-octylaluminium (tri-n-octylaluminium) of base contacts with magnesium, chromium and titanium, prepare the ethene with catalytic activity and the copolymer powder of 1-butylene.The Al/Ti mol ratio of copolymer powder is 2.5, and density is 0.955, measures under 190 ℃ 0.4 kilogram load, and its melting index is 75 grams/10 minutes, and every gram copolymer powder contains 4 * 10 ⁴The titanium of mmole.The particulate diameter Dm of copolymer powder is 700 microns, and Dm/Dn ratio is 3, and its loose density is 0.35 gram per centimeter ³

According to the present invention, utilize device as shown in Figure 3, the copolymer powder that will have catalytic activity is input to fluidized-bed reactor, makes ethene and 1-butylene carry out the gaseous state copolyreaction.The diameter of fluidized-bed reactor is 0.9 meter, and its gas velocity that makes progress is 50 cels, a kind of gaseous mixture that contains ethene, 1-butylene, hydrogen and nitrogen in this air-flow, and in the time of 80 ℃, (PP) is as follows for the dividing potential drop of each component gas:

The dividing potential drop PP=0.595MPa of ethene

The dividing potential drop PP=0.034MPa of hydrogen

The dividing potential drop PP=0.034MPa of 1-butylene

The dividing potential drop PP=1.037MPa of nitrogen

Under being the condition of 2.0MPa, nitrogen pressure will have the copolymer powder of catalytic activity to be stored in the storage vessel (3).By bucket type metering valve (4), this metering valve is identical with the metering valve shown in Figure 1 of French Patent the 2587081st intermittently for copolymer powder, and having volume is a chamber (14) of 2.3 liters.

The moving circle of revolution, first inlet (5e) of the copolymer powder that catalytic activity the is arranged 800 gram input intermediate chambers (5) that bucket type valve (4) will measure.The diameter of first inlet is 52 millimeters.Intermediate chamber (5) is that 102 millimeters, high 650 a millimeters vertical cylinder body are formed by an internal diameter.One of its lower section termination high 70 millimeters and have a diameter to be 52 millimeters the frustum of a cone of outlet (5C) at the bottom of.Obstacle body (6) is a bevel cone, the angle of the vertical center line of its axial line and cylinder is 11 °, 215 millimeters places, top at the distance cylinder, great circle periphery (6b) by it is fixedly installed on the inwall of garden cylindrical shell, 100 millimeters of this bevel circular cone heights, the diameter of its throttling through hole is 12 millimeters.The wall of a bevel cone and the angle of vertical central lines are 14 ° to 33 °.The drift angle of a bevel cone is 47 °.

Have at 100 millimeters places, top of distance cone one feed intermediate chamber top with the vertical secondary air admission line of wall cylinder (2), valve (12) is housed on pipeline (2).Secondary air is made up of round-robin gaseous mixture in fluidized-bed reactor and gas circulation line.The gas circulation pipeline is communicated with the top of fluidized-bed with its bottom, and a compressor and a heat exchange system are housed.Secondary air is from the downstream of compressor and heat exchange system, and its pressure is a bit larger tham 1.7MPa, and temperature is 65 ℃.

Internal diameter is that 52 millimeters connection line (18) is connected outlet (5c) with squirt pump (8).Connection line (18) is equipped with a trip valve (7).Supply with vector gas (9) to squirt pump (8).Vector gas (9) is made up of the same gaseous reaction mixture of round-robin in secondary air admission line (2).

Internal diameter is that 25 millimeters line of pipes (15) links to each other squirt pump 8 with fluidized-bed reactor (20).

At the time in 114 seconds (T ₁) in finish following operation:

(a) secondary air air intake valve (12) is opened, meanwhile, cutting-off valve (7) is opened, bucket type valve (4) is moved from the original position of chamber (14) being filled up the copolymer powder of catalytic activity has the copolymer powder of catalytic activity to be transported to the position of intermediate chamber (5) 800 grams, at this moment:

(b) make bucket type valve (4) keep the time (T4) in 10 seconds in the position that it will have the copolymer powder of catalytic activity to be transported to intermediate chamber (5), when 10 seconds times (T4) finished, bucket type valve (4) action reset to its initial position, up to next one circulation beginning

(c) make secondary air intake valve (12) and trip valve (7) keep time (T5) of 50 seconds at open position, so as the particle that makes all come self-measuring to cross in 15 seconds time (T3), flow to squirt pump (8) and

(d) secondary air intake valve (12) and trip valve (7) are closed time (T2) in 94 seconds, up to next one circulation beginning.

Open the time in (T5) at valve, via 1.2 meters of the flows of the secondary air of pipeline (2) input intermediate chamber (5) ³/ hour.During step (C), formed volatile granular layer by the copolymer powder of obstacle body (6) retardance, they flow through throttling through hole (6a) lentamente.This situation that exists by obstacle body impermanency ground retardance granular layer can have pressure fairlead (21a) and equipment (21b) (21) by utilization, and the top (5a) of mensuration intermediate chamber and the pressure between lower section (5b) fall and shows.

The vector gas of being made up of gaseous reaction mixture (9) enters squirt pump (8) under 80 ℃ temperature flow is 27 meters ³/ hour.

Realize the copolymer powder of catalyzer being arranged in gaseous reaction mixture, to form thin suspensoid S after these conditions ₃Form, be imported in the fluidized-bed reactor (20) by about 20 kilograms/hour flow.

The final copolymerization of ethene and 1-butylene of finding carries out in gratifying mode especially uniformly, does not form real caking.The density of the multipolymer that generates is 0.945, and the melting index of measured multipolymer is 12 to restrain/10 minutes under the load of 190 ℃ and 21.6 kilograms.

Claims (31)

1, an a kind of intermediate chamber and transfer lime of utilizing supplied with the method for the solid particulate that catalytic activity is arranged, be it is characterized in that this method comprises to-gaseous state alpha-olefin polymerization device:

(a) make the said particle that is flowing downward enter said intermediate chamber intermittently,

(b) the said particle that is flowing downward is mixed in said chamber with secondary air, so that make said particle in said secondary air, form first suspensoid,

(c) the flowing downward in said chamber of some particle at least of said first suspensoid of retardance, so that make said particle in said secondary air, form second suspensoid, with respect to the particle flow situation in the step (a), the particle of said second suspensoid flow downward more continuously and

(d) make said second suspensoid flow into said transfer lime, enter said reactor then from said chamber.

2, press the method for claim 1, it is characterized in that, in step (c), contact with at least one obstacle body by said particle, said first suspensoid at least some particulate flow downward blocked so that increase the mobile approach for the said particle in said chamber, flowing downward.

3, by the method for claim 2, it is characterized in that, said at least one obstacle body retardance that flows downward and had at least one throttling through hole, some particle at least of said first suspensoid passes through from this throttling through hole.

4, by claim 2 or 3 method, it is characterized in that, contact with the said granular layer that is blocked by said at least one obstacle body impermanency ground by some particle at least that makes said first suspensoid, said flow downward blocked.

5, by the method for arbitrary claim in the claim 2 to 4, it is characterized in that said at least one obstacle body is a baffle plate, an inverted butt polyhedron or an inverted truncated cone.

6, press the method for arbitrary claim in the claim 1 to 5, it is characterized in that, in step (d), said second suspensoid flows to a mixing device from said chamber, supply with vector gas to this mixing device, so that said particle forms thin suspensoid in said secondary air and said vector gas, this suspensoid enters said line of pipes, enters said reactor then.

According to the method for claim 6, it is characterized in that 7, mixing device is a squirt pump or a Venturi tube.

8, by the method for arbitrary claim in the claim 1 to 7, it is characterized in that in step (a), said particle is imported said chamber with the amount of measuring intermittently by a measuring apparatus.

According to the method for claim 8, it is characterized in that 9, this measuring apparatus is a metering valve, preferably a bucket type metering valve.

10, according to the method for claim 8 or 9, it is characterized in that, the said particle that measured is gone into said chamber intermittently from a storage vessel.

11, by the method for arbitrary claim in the claim 1 to 10, it is characterized in that having the solid particulate of catalytic activity to comprise a catalyzer of at least a transition metal that contains IV in the periodic table of elements, V or VI family.

12, press the method for arbitrary claim in the claim 1 to 10, it is characterized in that, there is the solid particulate of catalytic activity to comprise an alpha-olefin prepolymer, this prepolymer obtains like this: a catalyzer of at least a transition metal of IV, V or VI family contacts in making one or more alpha-olefins and containing the periodic table of elements, and randomly contact with at least a organometallic compound of metal of II or III family in the periodic table of elements, every gram prepolymer contains 2 * 10 ^-3Said transition metal to 1 mmole.

13, press the method for arbitrary claim in the claim 1 to 10, it is characterized in that, there is the solid particulate of catalytic activity to comprise an alpha-olefinic polymer or multipolymer, this polymkeric substance or multipolymer obtain like this: make one or more alpha-olefins carry out polyreaction under the condition that has a catalyzer to exist, this catalyzer contains IV in the periodic table of elements, at least a transition metal of V or VI family, and randomly having at least a organometallic compound of the metal of II in the periodic table of elements or III family, every gram polymkeric substance or multipolymer contain less than 2 * 10 ^-3, more than 10 ^-5The transition metal of mmole.

14, by the method for arbitrary claim in the claim 1 to 13, it is characterized in that, at specific time interval (T ₁) in finish following operation:

(a) be used in a valve open said secondary air being imported said chamber, meanwhile, said particle is being enough to make said particle enter the time (T of said chamber intermittently at least ₄) in enter said chamber, at this moment,

(b) be used in and carry the said valve of said secondary air under open position, to keep for some time (T5),, get the time (T3) and be equal to or less than the time (T5), follow so that said particle flowed out from said chamber during time (T3)

(c) be used in the said valve closes for some time (T2) of carrying said secondary air,, make until next one circulation beginning:

T ₂₊T ₅₌T _{1 and}T ₄Less than T ₅

15, press the method for arbitrary claim in the claim 1 to 14, it is characterized in that, value from the pressure (P16) of secondary air to said intermediate chamber that supply with should be, and the ratio of the pressure (P10) in said intake pressure (P16) and the said transfer lime is 1 to 2.5.

16, an a kind of intermediate chamber with top (5a) and lower section (5b) and transfer lime (15) of utilizing supplied with the device of the solid particulate that catalytic activity is arranged to a gaseous state alpha-olefin polymerization, it is characterized in that this intermediate chamber comprises:

(a) first inlet (5e) on said top (5a), said particle in use flows down this inlet (5e) intermittently downwards,

(b) second inlet (2a) on said top (5a); secondary air feeds second inlet (2a); secondary air advances said intermediate chamber by second inlet (2a); mix with the said particle that flows downward, so that said particle forms first suspensoid in said secondary air.

(c) means of retardation (6) that partly top (5a) and lower section (5b) is separated, some particle at least that it blocks said first suspensoid flows downward, thereby said particle forms second suspensoid in said secondary air, the particle of said second suspensoid in lower section (5b), flow downward more unceasingly with this state that in top (5a), flows downward and

(d) outlet (5c) on said lower section (5b), said second suspensoid flows into said pipe connecting by outlet (5c) from said chamber (5), enters said reactor (20) then.

According to the device of claim 16, it is characterized in that 17, said means of retardation (6) comprises at least one first obstacle body, so that increase the mobile approach for the said particle that in said chamber, is flowing downward.

18, by the device of claim 17, it is characterized in that at least the first obstacle body (6) comprises at least one throttling through hole (6a), some particle at least of said first suspensoid passes through from throttling through hole (6a).

19, press the device of claim 18, it is characterized in that, the area of the cross section of said at least one throttling through hole (6a) is littler than the area of cross section of said first inlet (5e) of said chamber, and less than the area of the cross section of the said outlet (5c) of said chamber.

20, press the device of arbitrary claim in the claim 17 to 19, it is characterized in that at least the first obstacle body (6) comprises some particle at least that makes said first suspensoid and the device that is contacted by the said granular layer of said at least one first obstacle body impermanency ground obstruction.

21,, it is characterized in that at least the first obstacle body comprises that the angle that forms with a vertical central lines is 5 ° to 40 ° a downward-sloping wall by the device of arbitrary claim in the claim 17 and 20.

22, by the device of arbitrary claim in the claim 17 to 21, it is characterized in that at least the first obstacle body comprises a baffle plate, an inverted butt polyhedron or an inverted truncated cone.

23, press the device of claim 22, it is characterized in that at least the first obstacle body comprises an inverted frustum, the relative vertical central lines of its axial line tilts slightly, its big end is fixedly installed on the inwall of said chamber, and its small end defines a throttling through hole (6a).

24, device according to the arbitrary claim in the claim 16 to 23, it is characterized in that, it comprises a mixing device (8) to its supply vector gas, mixing device (8) is connected to the outlet of said chamber (5c) on the said line of pipes (15) by connection line (18), for use in said secondary air and vector gas, forming the thin suspensoid of said particulate through said second suspensoid that said pipe connecting (18) leaves said chamber (5) by said outlet (5c), this suspensoid flows into said transfer lime (15) from said mixing device (8), enters said reactor (20) then.

25, by the device of claim 24, it is characterized in that mixing device is a squirt pump or Venturi tube.

26, by the device of claim 24 or 25, it is characterized in that transfer lime (18) is equipped with a trip valve, preferably a perforation valve.

By the device of arbitrary claim in the claim 16 to 26, it is characterized in that 27, it comprises that one makes said particle enter the device on the top (5a) of said chamber (5) intermittently for said first inlet (5e).

28, by the device of claim 27, it is characterized in that measuring apparatus (4) is a metering valve, preferably a bucket type metering valve.

29, by the device of claim 27 or 28, it is characterized in that measuring apparatus (4) links to each other with a storage vessel (3), so that the said particle that measured is imported intermittently the top (5a) of said chamber (5) from storage vessel (3).

30, device by arbitrary claim in the claim 16 to 29, it is characterized in that, it comprises that at least one is used to control the said top (5a) of said chamber (5) and the device that the pressure between said lower section (5b) falls, its part is installed in said means of retardation (6) both sides, therefore, because secondary air enters into the result of said top (5a), just in case said means of retardation (6) is during by said particle plugging, said pressure general who has surrendered increases an absolute value, and this will trigger the warning device of a said obstruction of warning.

31, press the device of arbitrary claim in the claim 18 or 30, it is characterized in that, said means of retardation comprises that at least one has the second obstacle body (60) of at least one throttling through hole (60a), it is installed between the said outlet (5c) of the said first obstacle body (6) and said chamber (5), and the area of the cross section of the said throttling through hole (60a) of the said second obstacle body lacks than the cross-sectional area of the said throttling through hole (6a) of the said first obstacle body.

Images